[[1] L. Starek, J. Kubla. Smart and intelligent material systems. Journal of Mechanical Engineering - Strojnícky časopis 2000 (51), No. 1, 1 - 34.]Search in Google Scholar
[[2] K. Chinnathambi. Study on mass effect of indirect squeeze cast 2014 wrought aluminum alloy. Die Casting Engineer, September 2006, 40 - 47.]Search in Google Scholar
[[3] E. Hajjari, M. Divandari. An investigation on the microstructure and tensile properties of direct squeeze cast and gravity die cast 2024 wrought Al alloy. Materials and Design2008 (29), 1685 - 1689.10.1016/j.matdes.2008.04.012]Search in Google Scholar
[[4] S. Shankar, D. Saha, M.M. Makhlouf, D. Apelian. Casting of wrought aluminum-based alloys. Die Casting Engineer, March 2004, 52 - 56.]Search in Google Scholar
[[5] L. Yanlei, L. Yuandong, L. Chun, W. Huihui. Microstructure characteristics and solidification behavior of wrought aluminum alloy 2024 rheo-diecast with self-inoculation method. China Foundry2012 (9), No. 4, 328 - 336.]Search in Google Scholar
[[6] H. Guo, X. Yang, M. Zhang. Microstructure characteristics and mechanical properties of rheoformed wrought aluminum alloy 2024. Transactions of Nonferrous Metals Society of China2008 (18), 555 - 561.10.1016/S1003-6326(08)60097-7]Open DOISearch in Google Scholar
[[7] U.A. Curle. Semi-solid near-net shape rheocasting of heat treatable wrought aluminum alloys. Transactions of Nonferrous Metals Society of China2010 (20), 1719 - 1724.10.1016/S1003-6326(09)60364-2]Open DOISearch in Google Scholar
[[8] B. Samanta, S.A. Al-Araimi, R.A. Siddiqui. A neutral network approach to estimate fatigue life of 6063 aluminum alloy. Journal of Mechanical Engineering - Strojnícky časopis 2002 (53), No. 1, 36 - 44.]Search in Google Scholar
[[9] D.G. Eskin, Suyitno, L. Katgerman. Mechanical properties in the semi-solid state and hot tearing of aluminium alloys. Progress in Materials Science Forum, 2004 (49), 629 - 711.10.1016/S0079-6425(03)00037-9]Search in Google Scholar
[[10] D. Viano, D. StJohn, J. Grandfield, C. Cáceres. Hot tearing in aluminium – copper alloys. In: Light metals 2005. TMS (The Minerals, Metals & Materials Society), Pittsburgh, USA, 2005, 1069 - 1073.]Search in Google Scholar
[[11] L. Stanček, B. Vanko. Instrument for casting with crystallization under pressure with increasing of flow intensity. In: Technology 2007. STU Bratislava, Slovakia, 2007, CD-ROM, (in Slovak).]Search in Google Scholar
[[12] W.Y. Kim, C.G. Kang, B.M. Kim. The effect of solid fraction on rheological behavior of wrought aluminum alloys in incremental compression experiments with a closed die. Materials Science and Engineering A2007 (447), 1 - 10.10.1016/j.msea.2006.10.019]Search in Google Scholar
[[13] Y. Zhong, G. Su, K. Yang. Microsegregation and improved methods of squeeze casting 2024 aluminium alloy. Journal of Materials Science & Technology2003 (19), No. 5, 413 - 416.]Search in Google Scholar